Course Details
Selected Problems of Design and Realization of Metal and Timber Structures
Academic Year 2023/24
BO055 course is part of 1 study plan
B-P-C-SI (N) / K Summer Semester 4th year
Composite steel-concrete structural members and components – principles of structural configuration, bases of structural design.
Composite steel-concrete beams – ultimate limit states, serviceability limit states of composite steel-concrete beams.
Composite steel-concrete beams – basis of design of shear connection.
Composite steel-concrete columns – basis of structural design of composite steel-concrete columns.
Glued laminated timber structures. Design principles, basic calculation, applications.
Assembly connections of timber structures with metal timber fasteners. Design principles, basic calculation.
Reinforcing of elements and connections of timber structures.
Design of timber structures – structural fire design. Behaviour of timber elements and connections during the fire, rules for analysis of structural members, basic design calculation.
Design of connections of timber structures – structural fire design, basic design calculation.
Composite steel-concrete beams – ultimate limit states, serviceability limit states of composite steel-concrete beams.
Composite steel-concrete beams – basis of design of shear connection.
Composite steel-concrete columns – basis of structural design of composite steel-concrete columns.
Glued laminated timber structures. Design principles, basic calculation, applications.
Assembly connections of timber structures with metal timber fasteners. Design principles, basic calculation.
Reinforcing of elements and connections of timber structures.
Design of timber structures – structural fire design. Behaviour of timber elements and connections during the fire, rules for analysis of structural members, basic design calculation.
Design of connections of timber structures – structural fire design, basic design calculation.
Course Guarantor
Institute
Objective
The objective of the subject is to introduce students to the problems of this course and to practise acquires knowledge and skills.
Knowledge
Student will learn the problems of the course and will get under controll the course aims, within the meaning of obtaining knowledge and skills in the field of special topics of design and realization of metal and timber structures, concretized in the course schedule.
Syllabus
1. Composite steel-concrete structural systems - basic principles of behaviour, load, material, design standards.
2. Steel-concrete beams – ultimate limit state, serviceability limit state (basic principles of design).
3. Steel-concrete beams – shear connection (types, basic principles of design).
4. Steel-concrete columns – basic principles of design and structural detailing.
5. Steel-concrete structural members – basic principles of fire design.
6. Timber beams – types, basis of design, static analysis.
7. Glue laminated timber structures – design principles, static design, basic structural compositions.
8. Assembly connections of timber structures with metal timber fasteners – design principles, basic calculation.
9. Design of timber structures – structural fire design. Behaviour of timber elements during the fire.
10. Design of timber structures – rules for analysis of structural members, basic design calculation; behaviour of connections of timber elements during the fire, basic design calculation.
11. Practical application of steel-concrete structural members and components; practical application of timber structural members and parts; examples of realized constructions.
2. Steel-concrete beams – ultimate limit state, serviceability limit state (basic principles of design).
3. Steel-concrete beams – shear connection (types, basic principles of design).
4. Steel-concrete columns – basic principles of design and structural detailing.
5. Steel-concrete structural members – basic principles of fire design.
6. Timber beams – types, basis of design, static analysis.
7. Glue laminated timber structures – design principles, static design, basic structural compositions.
8. Assembly connections of timber structures with metal timber fasteners – design principles, basic calculation.
9. Design of timber structures – structural fire design. Behaviour of timber elements during the fire.
10. Design of timber structures – rules for analysis of structural members, basic design calculation; behaviour of connections of timber elements during the fire, basic design calculation.
11. Practical application of steel-concrete structural members and components; practical application of timber structural members and parts; examples of realized constructions.
Prerequisites
Metal structures - design of members and connections of steel structures. Timber structures - design of members and connections of timber structures. Concrete structures - basis of design of members of concrete structures.
Language of instruction
Czech
Credits
4 credits
Semester
summer
Forms and criteria of assessment
course-unit credit and examination
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Composite steel-concrete structural systems - basic principles of behaviour, load, material, design standards.
2. Steel-concrete beams – ultimate limit state, serviceability limit state (basic principles of design).
3. Steel-concrete beams – shear connection (types, basic principles of design).
4. Steel-concrete columns – basic principles of design and structural detailing.
5. Steel-concrete structural members – basic principles of fire design.
6. Timber beams – types, basis of design, static analysis.
7. Glue laminated timber structures – design principles, static design, basic structural compositions.
8. Assembly connections of timber structures with metal timber fasteners – design principles, basic calculation.
9. Design of timber structures – structural fire design. Behaviour of timber elements during the fire.
10. Design of timber structures – rules for analysis of structural members, basic design calculation; behaviour of connections of timber elements during the fire, basic design calculation.
11. Practical application of steel-concrete structural members and components; practical application of timber structural members and parts; examples of realized constructions.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Steel-concrete composite structural members - overview, basic principles, cross-sections, materials.
2. Steel-concrete composite beams: basis of design - ultimate and serviceability limit states.
3. Steel-concrete composite beams: basis of design - shear connection.
4. Steel-concrete composite columns: basis of design - pure compression, buckling compression.
5. Steel-concrete composite structural members: principles of fire resistance evaluation.
6. Timber beams – static analysis.
7.-8. Glue laminated timber structures – static analysis.
9. Assembly connections of timber structures with metal timber fasteners – design principles.
10. Design of timber structures to fire effects.
11. Practical applications and examples of steel-concrete and timber structural members and parts.